Conformational control

The synthesis of key intermediate 6 begins with the asymmetric synthesis of the lactol subunit, intermediate 8 (see Scheme 3). Alkylation of the sodium enolate derived from carboximide 21 with allyl iodide furnishes intermediate 26 as a crystalline solid in 82 % yield and in >99 % diastereomeric purity after recrystallization. Guided by transition state allylic strain conformational control elements5d (see Scheme 4), the action of sodium bis(trimethylsilyl)amide on 21 affords chelated (Z)-enolate 25. Chelation of the type illustrated in 25 prevents rotation about the nitrogen-carbon bond and renders... 

In order to relax 1 mol of compacted polymeric segments, the material has to be subjected to an anodic potential (E) higher than the oxidation potential (E0) of the conducting polymer (the starting oxidation potential of the nonstoichiometric compound in the absence of any conformational control). Since the relaxation-nucleation processes (Fig. 37) are faster the higher the anodic limit of a potential step from the same cathodic potential limit, we assume that the energy involved in this relaxation is proportional to the anodic overpotential (rj)... 

Cationic Complexes with P-Bonded 2-Pyridylphosphines as N-Donor Ligands toward Rhodium. Electrical Charge vs. Steric Hindrance on the Conformational Control. Inorganic Chemistry, 45(17), 6628-6636. 

The quenching of benzophenone phosphorescence has been used by Mar and Winnik (1981) as a photochemical probe of hydrocarbon chains in solution. The bimolecular reaction for quenching the triplet state of 4-methoxy-carbonylbenzophenone [24] by 1-pentene occurs at rates which are below the diffusion limit by two to three orders of magnitude. Consequently, the intramolecular quenching reactions of to-alkenyl esters of benzophenone-4-carbo-xylic acid [25] occurs under conformational control. In [25] the point of... 

A good example for such a situation is a recent report on the synthesis of the macrotricyclic core 63 of roseophilin [40,41]- RCM was able to form the rather strained ansa chain of this target molecule only after the cyclization had been biased by a conformational control element X which helps to bring the unsaturated chains closer together and lowers the enthalpic barrier during ring formation (Scheme 18). 

Houk, K.N., Williams Jr., J.C., Mitchell, P.A. and Yamaguchi, K. (1981). Conformational control of reactivity and regioselectivity in singlet oxygen ene reactions Relationship to the rotational barriers of acyclic alkylethylenes. J. Am. Chem. Soc. 103, 949-951... 

Hopfner, K. P., Karcher, A., Shin, D. S., Craig, L., Arthur, L. M., Carney, J. P. and Tainer, J. A. (2000). Structural biology of Rad50 ATPase ATP-driven conformational control in DNA double-strand break repair and the ABC-ATPase superfamily, Cell, 101, 789-800. 

J. M. Lopez, F. Mannle, I. Wawer, G. Buntkowsky, and H. H. Limbach, NMR studies of double proton transfer in hydrogen bonded cyclic N,N diarylformamidine dimers Conformational control, kinetic HH/HD/DD isotope effects and tunneling. Phys. Chem. Chem. Phys. 9, 4498 4513 (2007). 

His35 to ligated His46 may be important in an electron transfer role or in His35 exercising some conformational control of the active site. The reduction potential of P. aeruginosa azurin increases from 300 mV (pH 8) to 360 mV (pH 5), which is believed to be related to His35 protonation. A pK of 6.6 is observed for this process, or alternatively pK s for azurin in the oxidized (6.1) and reduced (7.2) forms can be obtained [56]. 

In order to proceed according the outlined synthetic plan, a C(10)-a silyloxy substituent was used in the ketone 38 as a conformational control element which... 

At this stage of the synthesis, it was necessary to resort to a second conformational control element (shifting the B ring from a chair-chair to a boat-chair conformation), which ensures the generation of the C(l)-C(2) enolate of a C(2) ketone and allows the epimerisation of the substituent at C(3)a (which will return the B ring to the chair-chair conformation). 

A second example of the use of optically pure coordinatoclathrate hosts in controlling the enantioselectivity of photochemical reactions in the crystalline state is found in the case of the a-oxoamide derivative 13, which forms a crystalline 1 1 complex with host (S,S)-8 [18,19]. Irradiation of these crystals led to the P-lactam derivative (-)-14 in 90% yield and a reported ee of 100% (Scheme 3). The X-ray crystal structure of the complex showed that oxoamide 13 adopts a helical conformation that favors the formation of a single enantiomer of photoproduct 14. The reaction is thus conformationally controlled in a way exactly analogous to the examples discussed earlier in the review. 

Davies, Renaud, and Sibi independently reported the chiral relay approach to control the enhanced steric extension inside a substrate to achieve increased asymmetric induction. However, as our study proves, the asymmetric activation of a tropos catalyst clearly differs from the chiral relay approach, in which substrate conformational control is utilized, since asymmetric activation controls the chiral environment of a tropos catalyst by the addition of a chiral external source (a chiral activator). 

Overview. The proposed near-term research is divided into three areas, which will be pursued simultaneously. The first is the complete characterization of the current mercury-responsive fluorescent chemosensor system, including the measurement of fluorescence lifetimes, to discern the origin of the conformational control of fluorescence. The second is to develop two classes of substituted biaryl acetylenic fluorescent chemosensors, to move the observed fluorescence into the visible region and increase the magnitude of the fluorescence signal, which occurs upon conformational restriction. 

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